A note about the ground state of the H3+ hydrogen molecular ion

Abstract

Three simple 7-, (7+3)-, 10-parametric trial functions for the H3+ molecular ion are presented. Each of them provides subsequently the most accurate approximation for the Born-Oppenheimer ground state energy among several-parametric trial functions. These trial functions are chosen following a criterion of physical adequacy and includes the electronic correlation in the exponential form (γ r12), where γ is a variational parameter. The Born-Oppenheimer energy is found to be E=-1.340 34, -1.340 73, -1.341 59\,a.u., respectively, for optimal equilateral triangular configuration of protons with the equilibrium interproton distance R=1.65\,a.u. The variational energy agrees in three significant digits (s.d.) with most accurate results available at present as well as for major expectation values.